Cu29-RAD Filament ~ In Development
Coming Soon!
The Cu29-RAD filament by Kupros, Inc. is a groundbreaking all-metal solution designed specifically for FDM/FFF 3D printers to address the challenges of radiation exposure in space applications. Cu29-RAD sets a new standard in 3D printing, enabling the creation of radiation-hardened electronic components with exceptional precision and reliability.
Key Features:
Radiation Hardiness: Designed to resist radiation in high-exposure environments, ensuring long-lasting reliability of electronic components in space.
Unmatched Durability: Ideal for power-grade conductors, flexible and non-planar electronics, printed modular electronics, and embedded circuits, sensors, antennas, and other electronic components.
Precision Printing: Capable of printing traces as fine as 0.2mm and as large as 1.2mm, offering unparalleled detail and accuracy. *Nozzle Orifice size
Space-Grade Material: Engineered to withstand harsh space conditions, providing premier durability and performance.
Seamless Integration: Compatible with standard FDM/FFF 3D printers, such as the $339 Sovol SV04 IDEX printer.
Description:
Transform your aerospace 3D printing projects with the Cu29-RAD filament from Kupros, Inc. Specifically formulated to resist radiation, Cu29-RAD is perfect for creating durable, highly conductive components for space applications. This innovative filament eliminates the need for costly, specialized printers, enabling the seamless creation of intricate electronic parts.
Specifications:
Material: All-Metal Tin & Copper Filament
Radiation Resistance: Proven to withstand radiation in space applications
Printer Compatibility: FDM/FFF 3D Printers
Trace Resolution: 0.2mm to 1.2mm
Experience the future of radiation-hardened 3D printing with Cu29-RAD by Kupros, Inc.—where innovation meets resilience.
Contact us now to Preorder Cu29-RAD to be the first to elevate your 3D printing capabilities to withstand the rigors of space!
Coming Soon!
The Cu29-RAD filament by Kupros, Inc. is a groundbreaking all-metal solution designed specifically for FDM/FFF 3D printers to address the challenges of radiation exposure in space applications. Cu29-RAD sets a new standard in 3D printing, enabling the creation of radiation-hardened electronic components with exceptional precision and reliability.
Key Features:
Radiation Hardiness: Designed to resist radiation in high-exposure environments, ensuring long-lasting reliability of electronic components in space.
Unmatched Durability: Ideal for power-grade conductors, flexible and non-planar electronics, printed modular electronics, and embedded circuits, sensors, antennas, and other electronic components.
Precision Printing: Capable of printing traces as fine as 0.2mm and as large as 1.2mm, offering unparalleled detail and accuracy. *Nozzle Orifice size
Space-Grade Material: Engineered to withstand harsh space conditions, providing premier durability and performance.
Seamless Integration: Compatible with standard FDM/FFF 3D printers, such as the $339 Sovol SV04 IDEX printer.
Description:
Transform your aerospace 3D printing projects with the Cu29-RAD filament from Kupros, Inc. Specifically formulated to resist radiation, Cu29-RAD is perfect for creating durable, highly conductive components for space applications. This innovative filament eliminates the need for costly, specialized printers, enabling the seamless creation of intricate electronic parts.
Specifications:
Material: All-Metal Tin & Copper Filament
Radiation Resistance: Proven to withstand radiation in space applications
Printer Compatibility: FDM/FFF 3D Printers
Trace Resolution: 0.2mm to 1.2mm
Experience the future of radiation-hardened 3D printing with Cu29-RAD by Kupros, Inc.—where innovation meets resilience.
Contact us now to Preorder Cu29-RAD to be the first to elevate your 3D printing capabilities to withstand the rigors of space!
Coming Soon!
The Cu29-RAD filament by Kupros, Inc. is a groundbreaking all-metal solution designed specifically for FDM/FFF 3D printers to address the challenges of radiation exposure in space applications. Cu29-RAD sets a new standard in 3D printing, enabling the creation of radiation-hardened electronic components with exceptional precision and reliability.
Key Features:
Radiation Hardiness: Designed to resist radiation in high-exposure environments, ensuring long-lasting reliability of electronic components in space.
Unmatched Durability: Ideal for power-grade conductors, flexible and non-planar electronics, printed modular electronics, and embedded circuits, sensors, antennas, and other electronic components.
Precision Printing: Capable of printing traces as fine as 0.2mm and as large as 1.2mm, offering unparalleled detail and accuracy. *Nozzle Orifice size
Space-Grade Material: Engineered to withstand harsh space conditions, providing premier durability and performance.
Seamless Integration: Compatible with standard FDM/FFF 3D printers, such as the $339 Sovol SV04 IDEX printer.
Description:
Transform your aerospace 3D printing projects with the Cu29-RAD filament from Kupros, Inc. Specifically formulated to resist radiation, Cu29-RAD is perfect for creating durable, highly conductive components for space applications. This innovative filament eliminates the need for costly, specialized printers, enabling the seamless creation of intricate electronic parts.
Specifications:
Material: All-Metal Tin & Copper Filament
Radiation Resistance: Proven to withstand radiation in space applications
Printer Compatibility: FDM/FFF 3D Printers
Trace Resolution: 0.2mm to 1.2mm
Experience the future of radiation-hardened 3D printing with Cu29-RAD by Kupros, Inc.—where innovation meets resilience.
Contact us now to Preorder Cu29-RAD to be the first to elevate your 3D printing capabilities to withstand the rigors of space!